US2334494A

US2334494A - Abrasive article and method of making the same

Info

Publication number: US2334494A
Application number: US468641A
Authority: US
Inventors: George F Keeleric
Original assignee: Individual
Current assignee: Individual
Priority date: 1942-12-11
Filing date: 1942-12-11
Publication date: 1943-11-16
Anticipated expiration: 1960-11-16
Also published as: BE528083A

Description

Nov. 16, 1943. s. F. KEELIERIC ABRASIVE ARTICLE ANDMETHOD OF MAKiNG THE SAME Filed Dec], 11, 1942 Patented Nov. 16, 1943 ABRASIVE ARTICLE AND METHOD or MAKING THE smvm George F. Keeleric, Westboro, Mass. Application December 11, 1942, Serial No. 468,641

5 Claims.

This invention relates to abrasive articles or tools used for cutting and grinding purposes and including a working surface in which abrasive particlesare anchored by a layer of a bonding material. More particularly, the invention is concerned with a novel abrasive article or tool,

' which is superior to similar tools as heretofore manufactured in that the abrasive particles are more firmly bonded in place and better distributed. The invention further comprehends a new method by which the tool of the invention may be conveinently and inexpensively produced.

In the manufacture ofabrasive tools of the type Y which includes a blank or body, on the working surface of which abrasive particles, such as diamond dust, are anchored by a layer of -a hard bonding -metal, difiiculties have been encountered in distributing the particles and holding them in place on the working surface until the bonding metal can be applied, and various expedients have been proposed as a solution of the problems encountered. If the surface is coated with an adhesive prior to the application of the particles thereto, it is difiicult to obtain uniform distribution of the particles and the presence of the adhesive interferes with' subsequent operations, as, for' example, when the bonding metal is applied by electrodeposition. It has, accordingly, been proposed to render the particles magnetic by coating them appropriately and employing a magnetic field to hold the particles in place on the working surface of the tool until the bonding metal can be applied. This procedure, however, is not satisfactory because the concentration of the magnetic flux through the working surface of the tool is not likely to be uniform and the layer of particles, therefore, usually has form ridges around the particles with corresponding weak spots in the layer of bonding metal. To

overcome the latter difliculty,'it has been proposed to form grooves in the surface of the soft metal layer and to hold the particles in the grooves by a magnetic field until the bonding metal can be applied. This procedure, however, is unsatisfactory in practice, particularly when I the particles are of fine size, because the grooves metal surface.

a greater density near the edges of the working surface than in the'central area thereof.

Another method that has been proposed for Y,

holding the particles in place on the working surface of the tool blank until the bonding metal can be applied involves applying a layer of a soft metal, such as copper, to the surface of the tool and then embedding the particles in the'copper, after which a layer of bonding metal is applied over the copper to anchor the particles. This procedure does not produce satisfactory results i because the bonding metal, which is usually nickel, will not adhere properly to the soft metal or the soft metal may flow under the temperature conditions of use. The separation of the bonding metal is likely to be accelerated. when large particlesare used, since when these are embedded in the softfmetal, the latter may be distorted to must be shallower than the particles in order that the particles may project therefrom and it is diflicult to out such fine grooves in the soft The present invention is, accordingly, directed to the provision of an-abrasive article or tool in which the particles are anchored in th working surface more firmly than has been possible in the production of prior similartools. Also, the new tool is of such construction that proper distribution and holding of the particles in place prior to and during the application of the bonding metal may be readily effected.

The tool of the invention includes a blank of a suitable metallic substance, such as steel, having a working surface in the face of whichare cut grooves of substantial depth and in an arrangement which insures a good cutting effect. The

' grooves are then filled with a material which is different from that of the b1ank,-the grooves being so filled that the working surface of the blank is formed in part of the hard metal and in part of the filler material. ,The particles may then be distributed over the working surface and held in place thereon'while the bonding metal is According to one. procedure, the grooves are filled with a relatively applied in either of two ways.

soft metal and the particles are distributed over the filler metal and embedded therein to a limited the blank is made of magnetic material, the filler material is non-magnetic, and the particles are coated to render them magnetic. When the body is placed in the magnetic field, the flux tends to be concentrated through the portions of the workbodies of filler metal and proper distribution of the particles over the areas between the faces of the filler bodies is readily obtained. The particles are held in place by the field until the application of the bonding metal which partially encloses the particle and binds them to the blank. The bonding layer may leave the filler material exposed, in which event, filler material is later applied over the material in the grooves to lie flush with the layer of bonding metal. If preferred, the bonding metal may be so applied as to cover the bodies in the grooves as well as to partially enclose the particles.

For a better understanding of the invention, reference may be had to the accompanying drawing in which Fig. l is a view in side elevation of one form of tool made in. accordance with the invention;

Figs. 2, 3, and 4 are sectional views through a portion of the tool showing different steps in itsmanufacture;

Fig. 5 is a view similar to Fig. 1 of a modified form'of tool;

Fig. 6 is a view similar to Fig. 4 but on an enlarged scale and showing a modified construction; and

Fig. 7 is a view similar to Fig. 6, showing another modified construction.

In the drawing, the blank i0 is shown in the form of a fiat disc, which has an opening I I for a shaft. The blank is preferably formed of steel and it has a peripheral working surface in which are formed a number of grooves l2. These grooves may be in any arrangement, as, for example, they may be formed by knurling, as shown in Fig. 1, and thus intersect to form a multiplicity of fiat topped points or lands [3. If preferred, the grooves I 2 may have the form of a continuous spiral, as illustrated in Fig. 5, separated by lands it. The grooves are relatively large and may be deeper than the average length of the particles. In the practice of one form of the method of the invention, the grooves are filled with a relatively softer metal I, such as copper, in an appropriate manner, as by electrodeposition or spraying, so that the working surface of the blank is formed in part .by the top faces of the bodie of filler metal I and in part by the lands [3.

After the grooves have been filled, the abrasive particles ii are distributed over the working surface of the blank and held in position thereon until they can be anchored in place by the application of a layer of bonding metal. In the formation of the tool shown in Fig. 4, the abrasive parsize dependent upon the use of the tool, are distributed over the surfaces of the bodies of m -1 lin the grooves and then partially embedded therein. For this purpose, the particles may be placed in position manually and forcedinto the relatively soft filler metal by pressure.

A layer of bonding metal I6 is then applied to cover the entire working surface of the blank and other suitable-manner.

'ticles, which may be of diamond dust of suitable in surface of the blank exposed between the In the completed tool, the particles are held in place partly by being embedded in the soft filler metal and partly by being partially enclosed in the bonding layer. The bonding layer is held firmly in place because of it good adherence to the lands on the blank. If'the entire surface of the tool blank were coated with the soft filler metal, the bonding layer would be likely to strip therefrom during the use of the tool, but in the new tool, the anchorage of the bonding layer to the main body of the tool between the grooves ferromagnetic metal. Before the particles are applied to the worldng surface of the blank, the latter is placed in a magnetic field, the lines of force of which extend normal to the working surface. Because of the non-magnetic material in the grooves, there is a concentration offiux through thelands of the blank. when the particles are distributed tn the working surface, they are concentrated on the lands and the presence of the non-magnetic material insuresgthat there will be concentrations of fiux through the lands which will insure proper distribution of the particles on those areas. t'ained, the bonding metal I! is applied to bond the particles to the blank. when the grooves are filled'with non-metallic material, the layer of bonding metal will ordinarily be confined to the lands and after application of the bonding material, the spaces above the grooves will be filled,

as at it, with quantities of the material employed to fill the grooves. y

when the grooves are filled with non-magnetic metallic material; the layer of bonding material It will preferably continue over the tops of the bodies contained within the grooves and this same arrangement may be employed with nonmetallicmaterial in the grooves, if desired. In

either case, if the layer of bonding material is applied by electrodeposition, the layer may wholly enclose the particles as it builds up on the surfaces of thebodies filling the grooves. If

an excess quantity of bonding material is thus part of said first metallic material and in part of the softer metallic material, distributing abrasive particles over the part'of the working surface formed of softer metallic material, partialiy embedding said particles in said softer metallic material, and applying a bonding metal to the working surface to cover both parts thereof and partially enclose the particles and anchor them, the bonding metal having the characterise While the field is mainassaaea tic of adhering well to the metallic material of which the body is made.

2. In a method of making an abrasive tool including a body of steel having a working surface, 7'

the steps of forming a groove in the surface, filling the groove with copper so that the surface 'of the copper lies flush with the remainder of the working surface of the body and the latter ,4. An abrasive tool for cutting and grinding which comprises a body of steel having a working surface provided with an elongated groove, a copper filling in the groove from end to end of the latter with the top of the filling flush with the remainder of the working surface, finely divided abrasive particles distributed throughout the entire surface area of the filling and partially.

surface is formed in part of steel and in part of copper, distributing abrasive particles over the part of the working surface formed of copper, partially embedding the particles in the copper,

and applying a bonding metal to cover the entire working surface and partially enclose the particles and anchor them, the bonding metal having the characteristic of adhering well to steel.

3. An abrasivetool for cutting and grinding which comprises a body of metallic material having a working surface provided with an elongated groove, a metallic material different from that of which .the body is made filling the groove from end to end with the top of the filling flush with the remainder of the workingsurface, finely divided abrasive particles distributed throughout the entire surface area of the filling material and partially embedded therein, and a layer of bond-" ing metal partially enclosing the exposed portions of the particles and anchoring the particles in place, the layer covering'the entire surface of the filling material between the particles and the remainderof the working surfacepf the bodyi embedded therein, and a layer of bonding metal partially enclosing the exposed portions of the particles and anchoring the particles in place,

the layer covering the entire surface of the filling between the particles and the remainder of the working surface of the body.

5. An abrasive tool for cutting and grinding which comprises a body of metallic material having a working surface formed with grooves separated by lands, a softer metallic material filling the grooves from end to end and terminating flush with the remainder of the working surface, finely divided abrasive particles distributed tially enclosing said portions of GEORGE i KEELERIC.